/* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ #include "sizes.h" #include "Lpars.h" #include #include "em.h" /* This file is used to shield code.c as much as possible from em dependant * details. It introduces some call overhead but not enough for a coffee * break. (Sorry) * Note that functions with a leading upper case letter normally decide between * word or double word arith. */ int wz = 4, pz = 4, vz = 4; int Lflag; static Lab=0; char *malloc(); void init() { C_init((arith) wz, (arith) pz); } void openfile(file) char *file; { if (C_open(file) < 0) { fatal("Could not open output file"); } } void meswp() { C_ms_emx((arith) wz, (arith) pz); } void maxdes() { C_df_dnam("maxcdes"); rom(wz, 0L); rom(wz, -1L); rom(wz, (long) (wz+pz)); C_df_dnam("maxwdes"); rom(wz, 0L); rom(wz, -1L); rom(wz, (long) vz); C_df_dnam("maxbdes"); rom(wz, 0L); rom(wz, -1L); rom(wz, 1L); } int new_label(L) register *L; { if (*L==0) *L= ++Lab; return *L; } void Label(L) register L; { if (L!=0) C_df_ilb((label) L); } static Dot_label=0; int new_dot_label(L) int *L; { return *L= ++Dot_label; } void dot_label(L) int L; { C_df_dlb((label) L); } void branch(L) int *L; { C_bra((label) new_label(L)); } char *proc_label(L, name) register L; register char *name; { static char *lab=nil; register char *n; if (lab!=nil) free(lab); lab=malloc(strlen(name)+(1+sizeof(int)*3+1)); /* That is: P\0 */ sprint(lab, "P%d", L); n=lab+strlen(lab); while (*name!=0) { *n++ = *name=='.' ? '_' : *name; name++; } *n=0; return lab; } void magic() /* magic? should be called invisible */ { C_magic(); } void cwv() { if (vz>wz) { C_loc((arith) wz); C_loc((arith) vz); C_cii(); } } void cvw() { if (vz>wz) { C_loc((arith) vz); C_loc((arith) wz); C_cii(); } } void Loc(const) long const; { if (vz>wz) C_ldc((arith) const); else C_loc((arith) const); } void Lol(offset) int offset; { if (vz>wz) C_ldl((arith) offset); else C_lol((arith) offset); } void Lolp(offset) int offset; { if (pz>wz) C_ldl((arith) offset); else C_lol((arith) offset); } void Lil(offset) register offset; { if (vz>wz) { Lolp(offset); C_loi((arith) vz); } else C_lil((arith) offset); } void Lof(offset) int offset; { if (vz>wz) C_ldf((arith) offset); else C_lof((arith) offset); } void Lofp(offset) int offset; { if (pz>wz) C_ldf((arith) offset); else C_lof((arith) offset); } void Lif(offset) register offset; { Lofp(offset); C_loi((arith) vz); } void Stl(offset) int offset; { if (vz>wz) C_sdl((arith) offset); else C_stl((arith) offset); } void Inl(offset) register offset; { if (vz>wz) { C_ldl((arith) offset); C_ldc((arith) 1); C_adi((arith) vz); C_sdl((arith) offset); } else C_inl((arith) offset); } void Del(offset) register offset; { if (vz>wz) { C_ldl((arith) offset); C_ldc((arith) 1); C_sbi((arith) vz); C_sdl((arith) offset); } else C_del((arith) offset); } void Loe(name, offset) char *name; int offset; { if (vz>wz) C_lde_dnam(name, (arith) offset); else C_loe_dnam(name, (arith) offset); } typedef int (*pfi)(); static int operators[]= { '<', '>', '=', GE, LE, NE }; extern C_blt(), C_bgt(), C_beq(), C_bge(), C_ble(), C_bne(); extern C_tlt(), C_tgt(), C_teq(), C_tge(), C_tle(), C_tne(); extern C_zlt(), C_zgt(), C_zeq(), C_zge(), C_zle(), C_zne(); static pfi C_bxx[]= { C_blt, C_bgt, C_beq, C_bge, C_ble, C_bne }; static pfi C_txx[]= { C_tlt, C_tgt, C_teq, C_tge, C_tle, C_tne }; static pfi C_zxx[]= { C_zlt, C_zgt, C_zeq, C_zge, C_zle, C_zne }; void bxx(pos, op, L) register pos, op, L; { register i; if (op==AFTER) { C_sbi((arith) vz); if (vz>wz) { C_ldc((arith) 0); C_cmi((arith) vz); } if (pos) C_zle((label) L); else C_zgt((label) L); } else { for (i=0; operators[i]!=op; i++) ; if (pos && (i+=3)>=6) i-=6; if (vz>wz) { C_cmi((arith) vz); (C_zxx[i])((label) L); } else { (C_bxx[i])((label) L); } } } void Txx(op) register int op; { register i; for (i=0; operators[i]!=op; i++) ; (C_txx[i])(); cwv(); C_ngi((arith) vz); } extern C_adi(), C_sbi(), C_mli(), C_dvi(), C_rmi(); void xxi(op) register op; { static int operators[]= { '+', '-', '*', '/', BS }; static pfi C_xxi[]= { C_adi, C_sbi, C_mli, C_dvi, C_rmi }; register i; for (i=0; operators[i]!=op; i++) ; (C_xxi[i])((arith) vz); } void aar() { C_aar((arith) wz); } void adp(offset) int offset; { C_adp((arith) offset); } void and() { C_and((arith) vz); } void asp(size) int size; { C_asp((arith) size); } void blm(size) int size; { C_blm((arith) size); } void blt(lab) int lab; { C_blt((label) lab); } void cal(lab) char *lab; { C_cal(lab); } void cmi() { C_cmi((arith) vz); } void com() { C_com((arith) vz); } void del(offset) int offset; { C_del((arith) offset); } void _end(size) int size; { C_end((arith) size); } void exp(lab) char *lab; { C_exp(lab); } void ior() { C_ior((arith) vz); } void lae(lab, offset) char *lab; int offset; { C_lae_dnam(lab, (arith) offset); } void laedot(lab) int lab; { C_lae_dlb((label) lab, (arith) 0); } void lal(offset) int offset; { C_lal((arith) offset); } void lar() { C_lar((arith) wz); } void ldc0() { C_ldc((arith) 0); } void ldl(offset) int offset; { C_ldl((arith) offset); } void lfr(size) int size; { C_lfr((arith) size); } void loc(cst) int cst; { C_loc((arith) cst); } void loi(size) int size; { C_loi((arith) size); } void lol(offset) int offset; { C_lol((arith) offset); } void lor0() { C_lor((arith) 0); } void lxa(offset) int offset; { C_lxa((arith) offset); } void lxl(offset) int offset; { C_lxl((arith) offset); } void meserr() { C_ms_err(); } void ngi() { C_ngi((arith) vz); } void pro(lab) char *lab; { C_pro_narg(lab); } void ret(size) int size; { C_ret((arith) size); } void init_rt() { C_cal("init"); } void sli() { C_sli((arith) vz); } void sri() { C_sri((arith) vz); } void ste(lab, offset) char *lab; int offset; { C_ste_dnam(lab, (arith) offset); } void sti(size) int size; { C_sti((arith) size); } void stl(offset) int offset; { C_stl((arith) offset); } void trp() { C_trp(); } void tst() { /* No flags in EM */ } void xor() { C_xor((arith) vz); } void zeq(lab) int lab; { C_zeq((label) lab); } void zgt(lab) int lab; { C_zgt((label) lab); } void zlt(lab) int lab; { C_zlt((label) lab); } void zne(lab) int lab; { C_zne((label) lab); } char *itoa(i) long i; { static char a[sizeof(long)*3]; sprint(a, "%ld", i); return a; } void rom(size, c) int size; long c; { C_rom_icon(itoa(c), (arith) size); } void lin() { static oldline=0; extern yylineno; if (Lflag) return; if (yylineno!=oldline) C_lin((arith) (oldline=yylineno)); } static struct ftree { char *file; int lab; struct ftree *left, *right; } std_f = { "stdin", 0, nil, nil }, *curr_f= &std_f, *main_f=nil; char *curr_file="stdin"; static void do_fil(f) struct ftree *f; { if (Lflag) return; if (f->lab==0) { dot_label(new_dot_label(&f->lab)); C_rom_scon(f->file, (arith) (strlen(f->file)+1)); } C_fil_dlb((label) f->lab); } void fil() { do_fil(curr_f); } void main_fil() { do_fil(main_f==nil ? &std_f : main_f); } int set_file(f) char *f; { char *strcpy(); static struct ftree *ftop=nil; register struct ftree *pf, **apf= &ftop; register cmp; while ((pf= *apf)!=nil && (cmp=strcmp(f, pf->file))!=0) apf= cmp<0 ? &pf->left : &pf->right; if (pf==nil) { *apf= pf= (struct ftree *) malloc(sizeof *pf); pf->file=strcpy(malloc(strlen(f)+1), f); pf->lab=0; pf->left=pf->right=nil; } curr_f=pf; curr_file=pf->file; if (main_f==nil) { main_f=curr_f; return 0; } else return curr_f!=main_f; } void par_begin() { C_lal((arith) curr_offset); C_cal("pc_begin"); C_asp((arith) pz); } void par_fork(NONZERO) int *NONZERO; { C_cal("pc_fork"); C_lfr((arith) wz); C_zne((label) new_label(NONZERO)); } void resumenext() { C_cal("resumene"); } void no_deadlock() { C_zre_dnam("deadlock", (arith) 0); } void par_end() { C_cal("parend"); } void closefile() { C_close(); }